Hermann Hollerith
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Recent papers in Hermann Hollerith
Felieton należy do serii artykułów publikowanych w stałym dziale Rzecz o Historii gazety codziennej Rzeczpospolita. W tej serii artykułów są opisywane ważne wydarzenia i procesy, które doprowadziły do rozwoju i dzisiejszego znaczenia... more
Felieton należy do serii artykułów publikowanych w stałym dziale Rzecz o Historii gazety codziennej Rzeczpospolita. W tej serii artykułów są opisywane ważne wydarzenia i procesy, które doprowadziły do rozwoju i dzisiejszego znaczenia informatyki. W tym artykule opisane są początki istnienia i działania firmy IBM. Jest to pierwsza część opisu dziejów tej firmy. Jej dalsze losy zostały opisane w artykule mającym taki sam tytuł, ale oznaczonym jako część II (też jest dostępny w serwisie Academia.edu)
Toward the end of the 19th century, several different national bureaucratic institutions and private enterprises had evolved and expanded to such an extent that new information management tools and methods were necessary. The... more
Toward the end of the 19th century, several different national bureaucratic
institutions and private enterprises had evolved and expanded to such an
extent that new information management tools and methods were necessary.
The electromechanical data-processing system developed by Hermann Hollerith in the 1880s, which operated on the basis of punch cards, can be
regarded as the predecessor of modern automatic digital data-processing
systems. Information storage and data processing systems were accomplished
through punch cards, i.e. carton cards in a standardised form.
Information was punched onto the cards by perforating in fixed positions.
Hollerith invented a number of electromechanical devices that could punch
information on cards and process the cards that were carrying information.
The sorter machine made it possible to sort cards by the perforated marker
in a column, and the tabulator enabled counting and adding up cards.
This article treats the development of punch card-based systems by
demonstrating the primary modifications and correlating them with the
purposes of such systems. In order to do this, I will divide the punch cardbased
systems into five generations. The system was created in the United
States in the 1880s to process large volumes of statistical data that had been
recorded in population censuses. Several countries applied this system in
everyday practice up until the beginning of the 20th century. In 1894, information
systems capable of processing statistical data evolved out of this
development. These systems were still in use even after the end of World
War II. Solutions that facilitated bookkeeping were developed by 1906;
such systems served until the 1960s, in some places even longer. Population
registers based on punch cards were elaborated between 1935 and 1937, and
were used by various countries until the 1960s. Upon the introduction of
electronic computers after World War II, punch cards were used to enter
data and programs into the computers.
Punch card-based systems were the first automatic systems that were
able to process large quantities of data. They were the most complex information
systems from the end of the 19th century until the end of World
War II, offering the most multifarious options. After the introduction of
electronic computers, the application of such systems was consistently
scaled back, but they were still widely in use until the mid-20th century.
The experience and technical knowledge gained while applying punch
card-based information systems laid the groundwork for further digital
developments in computer systems. As both of these systems were used
in parallel over a considerably long period of time, knowledge was shared between them. To represent data units on punch cards, data had to be encoded. This shared knowledge resulted in significant gains in the processing of information, specifically the division of data into discrete, distinctly specified units to mechanically process information, and the representation of data units on punch cards via encoding.The codes of the early punch card-based systems were case based, and
had been elaborated according to the data to be analysed, and to the purposes
of processing. Further developments made these encoding systems
more universal, so that they came to be used as standards. Punch cards
were the first data carriers that could be read by machines. Corresponding
devices were employed to punch, read and process information on
cards. The initial versions of these systems were easily read by the naked
eye, but later the systems evolved to become completely number based.
The constant increase in the amount of data recorded on the cards was the
result of more complex tasks, as well as the growing abundance of calculation
options on the tabulators themselves. Programming with changeable
setups, which characterised the first generations of programming,
was followed by conditional programming with punch cards themselves.
Increased processing speed was one of the milestones in the development
of punch card-based systems. The systems were characterised by a vast
universality. Data, once recorded on the cards, was available for repeated
analysis, regardless of the objective. Punch cards were the first databases
that could be processed automatically. Nonetheless, operating mechanical
information systems required a firmer organisation and standardisation
of the working process.
institutions and private enterprises had evolved and expanded to such an
extent that new information management tools and methods were necessary.
The electromechanical data-processing system developed by Hermann Hollerith in the 1880s, which operated on the basis of punch cards, can be
regarded as the predecessor of modern automatic digital data-processing
systems. Information storage and data processing systems were accomplished
through punch cards, i.e. carton cards in a standardised form.
Information was punched onto the cards by perforating in fixed positions.
Hollerith invented a number of electromechanical devices that could punch
information on cards and process the cards that were carrying information.
The sorter machine made it possible to sort cards by the perforated marker
in a column, and the tabulator enabled counting and adding up cards.
This article treats the development of punch card-based systems by
demonstrating the primary modifications and correlating them with the
purposes of such systems. In order to do this, I will divide the punch cardbased
systems into five generations. The system was created in the United
States in the 1880s to process large volumes of statistical data that had been
recorded in population censuses. Several countries applied this system in
everyday practice up until the beginning of the 20th century. In 1894, information
systems capable of processing statistical data evolved out of this
development. These systems were still in use even after the end of World
War II. Solutions that facilitated bookkeeping were developed by 1906;
such systems served until the 1960s, in some places even longer. Population
registers based on punch cards were elaborated between 1935 and 1937, and
were used by various countries until the 1960s. Upon the introduction of
electronic computers after World War II, punch cards were used to enter
data and programs into the computers.
Punch card-based systems were the first automatic systems that were
able to process large quantities of data. They were the most complex information
systems from the end of the 19th century until the end of World
War II, offering the most multifarious options. After the introduction of
electronic computers, the application of such systems was consistently
scaled back, but they were still widely in use until the mid-20th century.
The experience and technical knowledge gained while applying punch
card-based information systems laid the groundwork for further digital
developments in computer systems. As both of these systems were used
in parallel over a considerably long period of time, knowledge was shared between them. To represent data units on punch cards, data had to be encoded. This shared knowledge resulted in significant gains in the processing of information, specifically the division of data into discrete, distinctly specified units to mechanically process information, and the representation of data units on punch cards via encoding.The codes of the early punch card-based systems were case based, and
had been elaborated according to the data to be analysed, and to the purposes
of processing. Further developments made these encoding systems
more universal, so that they came to be used as standards. Punch cards
were the first data carriers that could be read by machines. Corresponding
devices were employed to punch, read and process information on
cards. The initial versions of these systems were easily read by the naked
eye, but later the systems evolved to become completely number based.
The constant increase in the amount of data recorded on the cards was the
result of more complex tasks, as well as the growing abundance of calculation
options on the tabulators themselves. Programming with changeable
setups, which characterised the first generations of programming,
was followed by conditional programming with punch cards themselves.
Increased processing speed was one of the milestones in the development
of punch card-based systems. The systems were characterised by a vast
universality. Data, once recorded on the cards, was available for repeated
analysis, regardless of the objective. Punch cards were the first databases
that could be processed automatically. Nonetheless, operating mechanical
information systems required a firmer organisation and standardisation
of the working process.